Journal ArticleDOI
Leaf litter decomposition of Piper aduncum, Gliricidia sepium and Imperata cylindrica in the humid lowlands of Papua New Guinea
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Piper leaf litter is a significant and easily decomposable source of K which is an important nutrient for sweet potato and the decomposition and nutrient release patterns had significant effects on the soil.Abstract:
No information is available on the decomposition and nutrient release pattern of Piper aduncum and Imperata cylindrica despite their importance in shifting cultivation systems of Papua New Guinea and other tropical regions. We conducted a litter bag study (24 weeks) on a Typic Eutropepts in the humid lowlands to assess the rate of decomposition of Piper aduncum, Imperata cylindrica and Gliricidia sepium leaves under sweet potato (Ipomoea batatas). Decomposition rates of piper leaf litter were fastest followed closely by gliricidia, and both lost 50% of the leaf biomass within 10 weeks. Imperata leaf litter decomposed much slower and half-life values exceeded the period of observation. The decomposition patterns were best explained by the lignin plus polyphenol over N ratio which was lowest for piper (4.3) and highest for imperata (24.7). Gliricidia leaf litter released 79 kg N ha(-1), whereas 18 kg N ha(-1) was immobilised in the imperata litter. The mineralization of P was similar for the three species, but piper litter released large amounts of K. The decomposition and nutrient release patterns had significant effects on the soil. The soil contained significantly more water in the previous imperata plots at 13 weeks due to the relative slow decomposition of the leaves. Soil N levels were significantly reduced in the previous imperata plots due to immobilisation of N. Levels of exchangeable K were significantly increased in the previous piper plots due to the large addition of K. It can be concluded that piper leaf litter is a significant and easily decomposable source of K which is an important nutrient for sweet potato. Gliricidia leaf litter contained much N, whereas imperata leaf litter releases relatively little nutrients and keeps the soil more moist. Gliricidia fallow is more attractive than an imperata fallow for it improves the soil fertility and produces fuelwood as additional saleable products.read more
Citations
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Effects of Exotic Plant Invasions on Soil Nutrient Cycling Processes
TL;DR: This work has reviewed studies that compare pool sizes and flux rates of the major nutrient cycles in invaded and noninvaded systems for invasions of 56 species and suggests that invasive plant species frequently increase biomass and net primary production, increase N availability, alter N fixation rates, and produce litter with higher decomposition rates than co-occurring natives.
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Cogongrass (Imperata cylindrica)—Biology, Ecology, and Management
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Effects of shade-tree species and spacing on soil and leaf nutrient concentrations in cocoa plantations at 8 years after establishment
Shahla Hosseini Bai,Stephen J. Trueman,Tio Nevenimo,Godfrey Hannet,Peter Bapiwai,Mathew Poienou,Helen M. Wallace +6 more
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Journal ArticleDOI
Biomass and nutrient accumulation of Piper aduncum and Imperata cylindrica fallows in the humid lowlands of Papua New Guinea
TL;DR: Piper accumulated large amounts of biomass and nutrients, particular K, which is an important nutrient for root crops that dominate the cropping phase in the shifting cultivation systems of the humid lowlands.
References
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Journal ArticleDOI
The nitrogen mineralization rate of legume residues in soil as influenced by their polyphenol, lignin, and nitrogen contents
TL;DR: The (lignin + polyphenol):N ratio appears to be a good predictor of N mineralization rates of incorporated legumes, but the method for analyzing plant poly phenol needs to be standardized.
Journal ArticleDOI
Decomposition and nutrient release patterns of the leaves of three tropical legumes
Cheryl A. Palm,Pedro A. Sanchez +1 more
TL;DR: It is apparent from this study that not all leguminous leaves decompose and release nitrogen quickly, despite high nitrogen concentrations in the leaves, and Nitrogen release by legume with high polyphenolic concentrations will be slower than that by legumes with low polyphenolics concentrations and has important implications to nitrogen cycling and the selection of legumes for agroforestry systems.
Journal ArticleDOI
Improved fallows come of age in the tropics
TL;DR: Improved fallows are the deliberate planting of fast-growing species — usually legumes — for rapid replenishment of soil fertility for in situ accumulation of large quantities of N in vegetation and soil, as well as for providing sustainability enhancing services.
Journal ArticleDOI
Nitrogen release from prunings of legume hedgerow trees in relation to quality of the prunings and incubation method
TL;DR: In this article, the effects of legume tree prunings on their decomposition and N release rates in a Red-yellow Podzolic soil (Ultisol) were compared to determine the effect of N, lignin and polyphenols of pruned legume trees.